Literaturdatenbank
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Gray, E. M. (1995). Dna fingerprinting reveals lack of genetic variation in northern populations of the western pond turtle (clemmys marmorata). Conservation Biology, 9(5), 1244–1254.
Added by: Admin (23 Aug 2008 15:32:59 UTC) Last edited by: Beate Pfau (23 Dec 2009 08:48:16 UTC) |
| Resource type: Journal Article BibTeX citation key: Gray1995 View all bibliographic details  |
Categories: General Keywords: Actinemys, Actinemys marmorata, Clemmys, Emydidae, Genetik = genetics, Habitat = habitat, Nordamerika = North America, Schildkröten = turtles + tortoises, Systematik = taxonomy Creators: Gray Collection: Conservation Biology |
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| Abstract |
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DNA fingerprinting was used to provide the first analysis of the genetic composition of western pond turtle (Clemmys marmorata) populations in Washington, Oregon, and California. Populations of the western pond turtle in Washington and northern Oregon are rapidly approaching extinction. Genetic similarity within the largest northern populations, which are located inland, is high. An analysis of population substructure (F sub(st)) revealed significant genetic divergence between inland populations, indicating a lack of dispersal and gene flow between sites. In contrast, northern coastal sites are not genetically distinct, but there are few if any viable populations remaining in this region. Genetic variability within southern California populations is a great deal higher than in northern inland sites. Similarly, a low F sub(st) value indicated a lack of genetic differentiation between southern sites. An inter-regional analysis of population substructure (F sub(st) = 0.24) revealed a significant degree of genetic divergence between geographical regions throughout the range. In addition, an estimate of western pond turtle phylogeny showed a genetic break in the species between northern and southern populations. Both population subdivision and phylogenetic analyses suggest a lack of appreciable gene flow between geographical regions for a considerable period of time. Genetic analyses support traditional subdivision based solely on the morphological variation of Clemmys marmorata into two subspecies: northern Clemmys marmorata marmorata and southern Clemmys marmorata pallida. Recovery of dwindling northern populations must combine demographic and genetic considerations. A first step should be to preserve local gene pools while augmenting population numbers, with the goal of preventing the extinction of this genetically and morphologically distinct subspecies.
Added by: Admin Last edited by: Beate Pfau |